Steaming‐Assisted Conversion: A New Strategy for the Synthesis of Anatase TiO2, Nb, and W‐doped Anatase TiO2 2D Inverse Opal Films

Hua Li; Yufei Deng; Ralf Brüning; Yuwei Liu; Jacques Robichaud; Jian Liang; Weihui Jiang; Yahia Djaoued

doi:10.1002/admi.202300497

Advanced Materials Interfaces (Dec 2023)

Steaming‐Assisted Conversion: A New Strategy for the Synthesis of Anatase TiO2, Nb, and W‐doped Anatase TiO2 2D Inverse Opal Films

Hua Li,
Yufei Deng,
Ralf Brüning,
Yuwei Liu,
Jacques Robichaud,
Jian Liang,
Weihui Jiang,
Yahia Djaoued

Affiliations

Hua Li: Department of Materials Chemistry School of Materials Science and Engineering Jingdezhen Ceramic University Jingdezhen Jiangxi 333403 P. R. China
Yufei Deng: Department of Materials Chemistry School of Materials Science and Engineering Jingdezhen Ceramic University Jingdezhen Jiangxi 333403 P. R. China
Ralf Brüning: Physics Department Mount Allison University Sackville NB E4L 1E6 Canada
Yuwei Liu: Department of Materials Chemistry School of Materials Science and Engineering Jingdezhen Ceramic University Jingdezhen Jiangxi 333403 P. R. China
Jacques Robichaud: Laboratoire de Recherche en Matériaux et Micro‐spectroscopies Raman et FTIR Université de Moncton‐Campus de Shippagan Shippagan NB E8S 1P6 Canada
Jian Liang: National Engineering Research Centre for Domestic & Building Ceramics Jingdezhen Ceramic University Jingdezhen Jiangxi 333001 P. R. China
Weihui Jiang: National Engineering Research Centre for Domestic & Building Ceramics Jingdezhen Ceramic University Jingdezhen Jiangxi 333001 P. R. China
Yahia Djaoued: Laboratoire de Recherche en Matériaux et Micro‐spectroscopies Raman et FTIR Université de Moncton‐Campus de Shippagan Shippagan NB E8S 1P6 Canada

DOI: https://doi.org/10.1002/admi.202300497
Journal volume & issue: Vol. 10, no. 34
pp. n/a – n/a

Abstract

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Abstract Steaming‐assisted conversion route, a new strategy, is first adapted for the synthesis of highly crystallized anatase TiO2 2D inverse opal (IO) monolayer films, and then to Nb‐doped TiO2 and W‐doped TiO2 2D IO monolayer films. Pure water, ammonia, or HCl solutions are used as a source of steaming vapor to convert dry films of amorphous TiO2 IO, NbCl5/TiO2, and WCl6/TiO2 composite IOs into anatase TiO2, Nb‐doped TiO2, and W‐doped TiO2 IO films. This new strategy renders possible the doping of metal ions within the framework of the anatase TiO2 IO films under low temperature and liquid‐free conditions. Further, the ordered array structure of the IO films is also effectively retained. The low steaming conversion temperature allows high dopant rates of homogeneously distributed heteroatoms, resulting in Nb doping as high as ≈34%. The thus prepared TiO2, Nb‐doped TiO2, and W‐doped TiO2 anatase IO films are successfully used as active electrodes in the fabrication of electrochromic devices.

Published in Advanced Materials Interfaces

ISSN: 2196-7350 (Online)
Publisher: Wiley-VCH
Country of publisher: Germany
LCC subjects: Science: Physics; Technology
Website: https://onlinelibrary.wiley.com/journal/21967350

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